In this work, a series of II-VI group organic-inorganic layered nanosheets with strong quantum confinement were synthesized. The nanosheet itself has a two-atom-thick inorganic layer that can be called a monolayer, and each inorganic monolayer is covalently bonded through a diamine ligand. The ligand can also serve as an insulating layer to confine electrons. in the plane. The large blue shift observed in the absorption spectrum and the symmetry of C3v are intrinsic properties of the two-dimensional topography. By doping transition metals, we can introduce additional spin-orbit interactions and additional optical activity. Under the symmetry of C3v, the material will theoretically have giant Zeeman splitting, the special spin transition mechanism of manganese itself and the phosphorescence emission with long lifetime makes the manganese-doped wide-band gap semiconductor exhibit special optical phenomena at low temperature and in a magnetic field. Through cooperation with the Department of Physics, we try to measure the spin-dependent photoluminescence spectrum of manganese, and anomalies are observed and attempts are made to explore the reasons behind these phenomena.